US2948661A - Lautering method and apparatus - Google Patents

Description

Aug. 9; 1960 P. J. o'NElLl., JR

LAUTERING METHOD AND APPARATUS Filed April 21, 195e INVI'SNTOR. PAUL J. ONE/LLJR BYv gay@ Y ATTORNEYS rates Unite.

2,948,661 LAUrERnsG lMETHOD AND APPARATUS Paul J. ONeill, Jr., Sausalito,y Calif., assignor to 'Union Machine Companyl` Filed Apr. 21, 1958, Ser. No. 729,827

Claims. (Cl. 19E-134) characterized by the great amount of skill and experience required by the brewmaster to produce the optimum qualities in the beer without loss of time.

In the lautering operation a relatively large lauter tub is provided in which the infusion of the mash grains is carried out. The lauter tub is provided with a perforated false bottom through which the wort is strained and includes means for introducing water into the tub to obtain the consistency desired.

Heretofore, great skill has been required of the brewmaster in regulating the draw-oft rate of the wort through the lauter tub false bottom. If the rate is too great at any point in the lautering cycle excessive iilter bed compaction results thereby irreparably damaging the process. On the other hand, if the draw-ofi rate is too slow an unnecessary extension yin the time of the cycle results.

In the event excessive lter bed compaction results it is necessary to cut the grains bed by means of the lauter blades, of, if the condition is severe, to resort to backwrashing through the false bottom. Such procedures always result in inefficiency, to say nothing of the resultant impairment in the quality of the wort.

Itwill be understood that the rate o f draw-onf.' to obtain optimum results varies during the lautering cycle because of the many variables involved. Furthermore, the dify)ferent grades of malt ranging from fancy to standard possess ditierent weight ratios of husks to kernelsjthereby giving rise to variations of the iilter bed structure by changing its vaverage density. Such nonun-iforrnity Yof the various factors which determine the proper draw-off rate requires each lautering cycle to be closely supervised the operator when the process is cartied out manually.

In general, it may be said that the operator exercises control o ver the draw-ofi rate, addition of sparging water, grains cutting and backwashing when changes in various visually observable conditions dictate the necessity of corrective measures. However, the nature of the lautering operation is such that when the corrective measures are taken apermanently damaging time lapse has usually already occurred. Y

It is the main object of the present invention to provide -a method `of carrying out the lautering. cycle in which automatic control `as ,distinguished from manual control is exercised, thereby permitting changes in controlling variables to Ibe made immediately when required so as to adhere as closely as possible to a perfect lautering cycle.

At this point it, should be pointed out that the Agreatest problem encountered in the lautering operation is compaction of the iilter bed. Restrictionof the flow of wort through the false bottomis caused by the malthusks arranging themselves across the slotsorperforations of the false bottom thereby obstructing such iiow. Ordinarily'the husks are buoyed up by the V:Fluid rmass the tank but this is offset by the downward viscous drag-ot the wort tending to carryV the husks to thev bottom. s Thus; although the iilter bed is fairly homogeneous beyond a: shortdistance upwardly from the false bottom and the downward velocity of lwort is relatively slow, said veloci ity increases adjacent the false bottom especially whenmalt husks lie across the slots of the Vfals'e' Ibottom and reduce the effective slot drainage area. Such velocity increase results in further blocking of the slot area 'which in turn Vfurther increases the wort velocity, and so on; When iilter Ibed compaction becomes excessive lthe only corrective measures available to free the drain slots fof the husks .are use oi mechanically propelled grains cutting knives, or backwashing.

I have found that a relationship exists between opti'- mum `draw-ofi rate for a perfect lautering cycle and lthe specific .gravity of the wort. 'In this connection it should be understood that reduction in -wort viscosityl is `the result of gradual dilution'of the lauter mash through the addition of sparging water. As the viscosity of the wort decreases -it is possible to increase the drawol rate with'- ,out causing compaction ot the iilter bed.` On the other hand, as the viscosity increases, the draw-oli rate must be reduced to prevent toompactionV of the lter b ed. Since it is impractical to dire'otly'control draw-dii rate y'in relation to viscosity another method must be found which takes' account of the eiect of changing viscosity.

It has been yfound that a direct relationship exists between viscosity of the wort and the diierential pressure existing directly above and'b'elow the false bottom. By measuring the difference in pressure above and below the false bottom a v alue of the resistance created by the downward ilow of wort is' thus arrived at.V This is, in edec't, a measure of the tendency of the husks to becompacted across the false bottom surface. vBy ythejpresent invention, I take advantage of the above noted differential pressure in automatically' regulating the 'draw-'cifrato in proportion to the same. t t

However, the operationV is lfurther complicated by the fact lthat it is necessary to carry out the lautering process during a predetermined time interval of say, Vthree hours, because proper timing with respect to other brewing processes is required. If the lautering process were efiti'rely dependent upon the `above noted differential pressure, variations" in total process time would result because variations in the raw materials used and 'slightly varying temperatures would give rise to variationsin the viscosity of the wort and consequentlyeiect differing iiow characteristics at the false bottom It is therefore necessary to incorporate in an automatic' lautering method some means of completing the cycle in aspeciiied time interval and at the same time take advantage et automatic changes in draw-orf rates based on the changes in viscosity of the wort. V

As will subsequently Ibe described in greater detail, I achieve such a result by superirnposing the rate dictated by viscosity on -a rate based on an ideal cycle determined by severalv trial brews.v The ,ideal cycle may be pressed on a cam proiile so thatfor a typical time cycle of three hours, the rate of draw-0E varies in accordance withrthe variations determined by :an expert operator carrying outa three-hour lautering cycle. By cascading -the `rate of ow determined by the'time pattern prole I am able to prevent excessive grains bed' wmpaction without lengthening the lautering cycle. f

The drawing is -a semi-schematic arrangementr of a lauter tank yand the `pipingand wiring employedhythe present invention.

lin detail.;` the ,invention is employed with a comentional lauter tank generally designated 1 having a domed top 2, circular sidewalls 3 and a bottom 4. A conduit 5 connected with the top 2 is provided through which the material from the malt tun (not shown) is discharged into the tank 1,

The usual grains cutting blades 7 are provided supported on horizontally extending arms 8 which are rotated by a central revolvable shaft 9 driven by gear motor generally designated 10. Sparging pip 11 for supplying Water to the tank may be carried by arms 8. The above noted structure is conventional and no claim is made to the same except in combination with the invention herein claimed.

Y Spaced above the bottom 4 is a false bottom 15 which is provided with relatively small slots through which the wort is drained. Connected with bottom 4 are a plurality of outlet pipes 16 leading to a plurality of drain pipes 17 which in turn are connected to a manifold 18 from which the wort is conveyed by a single pipe 19 to a grant 20 where the quality of the beer may be 0bserved. Flow control valve 21 is provided in line 19.

The above piping arrangement differs from that heretofore employed with conventional manual systems in that a single pipe 19 is employed to carry all of the wor-t so that the entire flow may be regulated by valve 21.

To permit backwashing when required a fresh water pipe 22 is connected to manifold 18 and ow of water therethrough is controlled by a solenoid valve 23, the control of which will be described later on.

By the present invention the diierence in pressure existing above and below the false bottom 15 is registered on a conventional differential pressure transmitter 30 connected by conduits 31, 32, to the interior of tank 1 at points respectively above and below the false bottom 15. Transmitter 30 is supplied with air through a conduit 33 and is of the type which transmits air through output conduit 34 at a pressure proportional to the dilerential pressure sensed by it.

The transmitted air pressure signal from transmitter 30 is conveyed through conduit 35 to a conventional low pressure selector 36 which is of the type that transmits the lesser of two pressure signals received by it. Low pressure selector 36 also receives through conduit 37 an air pressure signal from a conventional time pattern transmitter 38 that is actuated by a cam of predetermined shape to transmit a pressure corresponding to the rate of ilow at any point in an ideal lautering cycle. Except for the fact that time pattern transmitter 38 transmits varying signals based on a predetermined cam contour it is similar to transmitter 30 and is provided with an air supply conduit 39 to provide a source of uniform air pressure.

The air pressure signal received from the low pressure selector 36 is conducted through conduit 41 to a conventional master controller 4Z which in turn is connected by line 43 to a conventional spring operated diaphragm lmechanism 44 carried by valve 21. It will be understood that the maximum valve opening dictated by the above arrangement is such as to prevent grains bed compaction beyond a predetermined amount. Howevr, because of the presence of the time pattern controller the draw-off rate at no time is permitted to fall below a rate that will prevent completion of the lautering operation within the predetermined cycle time. The cam profile on the time-rate controller 38 may be established from a number of flow rate patterns taken from successful brews. From the above it is seen that the time pattern con` troller 38 establishes a set point for any particular moment in the lautering cycle, and the differential pressure transmitter insures that the draw-oif rate is not less than .the maximum amount possible without causing a damaging increase in filter bed compaction.

Furthermore, the differential pressure transmitter functions to initiate grains cutting and backwashing when required.

Master controller 42 is also connected by means of a conduit 49 to a second diiferential pressure transmitter 47 which is connected to opposite sides of a convention ow measuring orifice 48 in drain line 19. The operation of master controller 42 is such that it senses the difference between the signals emanating from low pressure selector 36 and the flow measuring transmitter 47. The action of controller 42 thus correlates the opening of draw-ott valve 21 to the actual rate of flow through drain line 19. If the level of the liquid in lauter tank 1 were not variable it would be possible to obtain automatic operation without the second differential pressure transmitter 47. However, since changing levels in tank 1 cause changing pressures in the wort it is not possible to base control on absolute valves and it is therefore necessary to sense the difference between the actual iiow through drain pipe 19 and the possible flow determined by differential pressure transmitter 30.

It is, of course, possible to hold the water level in tank 1 at a uniform height to cover the grains bed by means of an automatic level control gauge controlling the inilow of sparging water. In such a case the second differential pressure transmitter 47 may be obviated.

It may be repeated here that one of the important requirements of a successful lautering cycle is that when lter bed compaction dictates the need for corrective action with respect to the draw-off rate, such action should be taken immediately. One of the glaring weaknesses of present manual control methods is the inability of the operator to take corrective action soon enough to prevent permanent damage. Although by the present invention the need for drastic action in freeing obstruction of the false bottom by husks is minimized, nevertheless, when the grains bed compaction becomes so severe that it would be impossible to complete the cycle in the permissible time the present invention permits the immediate start of grains bed cutting to correct the compaction. lf the compaction is so severe as to require backwashing, this also is accomplished automatically without delay.

To this end, the output signal from the differential pressure transmitter 30 is also connected by lines 34 and 52 to a diaphragm actuated electric switch 53 that in turn is connected by leads 54, 55 to the gear motor 10. As a practical matter, the pneumatic signal transmitted by the various transmitters herein described may range in pressure from about three to `fifteen pounds per square inch although a range of from about three to eight or nine pounds per square inch would correspond to the normal differential pressures registered by transmitters 30, 47. By setting the pressure actuated switch 53 for actuation at a relatively high pressure, say ten pounds per square inch, said switch is closed only when the differential pressure registered by transmitter 30 is high enough to indicate that grains cutting is required to free the false bottom from the obstruction of the husks. Therefore, upon actuation of switch 53, gear motor 10 is started to rotate shaft 9 and drive the grains cutters 7 through their circular paths of travel supported on arms 8. Such grains cutting continues until the differential pressure at the false bottom is reduced to such an extent as to open switch 53.

In the event the grains bed compaction is so severe that only backwashing can rectify the impairment of drainage, this fact is registered by an even greater differential pressure being indicated by transmitter 30 and by a signal of even stronger pressure emanating therefrom. Connected with conduit 52 by pipe 57 is another pneumatically actuated switch 58 which is set at a still higher pressure level than switch 53; for example, it may be set at about fifteen pounds per square inch. This switch 58 is connected by leads 59, 60 to the solenoid 61 of the solenoid actuated valve 23 which is in the fresh water backwash line 22 hereinbefore described.

If the grains bed compaction becomes so great as to require backwashing to free the perforated false bottom o-husks this fact is manifested b `ythe relatively high differential pressure registered by transmitter` 3,0:- andiits transmitted signal. If the pr'essureof saidfsignal` becomes so great as to actuate the high pressure switch` 58, ythe circuit through leads 59, '60, is completed; to.` actuate solenoid 61 yand open valve 23 thereby effecting backwashing. A timedelay relay of conventional ydesign' may be incorporated in solenoid 61V to lkeep valve Z'Zbpenifor a predetermined length of time.

Toobtain all the values possiblefroru the mash it is desirable to start the lautering cycle with a mixture of relatively high concentration so that the viscosity of the wort isv also relatively high. Since grains bed compaction is a direct function of viscosity, the automatic control permitted by the present'invention prevents draw-0E at too rapid a rate which might accelerate compaction. On the other hand, assparging Water is added to dilute the wort the abovedescribedV control= permits tledrawfoi rate to increase automatically and atthe same time pre,- vent the velocity of flow adjacent the false bottom from increasing to such an extent -asto compact-the husks. v

It will be apparent that the above described automatic control minimizes the need for grains cutting and backwashing with their attendant reduction in efficiency of the process.

It should be understood that the invention is not restricted to the specific steps andapparatus hereinr disclosed for illustrative purposes but is intended to` include in its scope minor variations in design and operation coming within the terms ofthe following claims.

I claim:

1. In combination with a lauter tank having a p erforatedfalse bottom for-drainingwort 'therethrougnnlter bed compactionmeasuringmeans responsive to the diit'erential pressure existing between points above and below said false bottom, means for registering Va predetermined ideal wort ow rate at any time during the lautering cycle, signal means for transmitting signals from said measuring and registering means at magnitudes proportional to the values of said diierential pressure and said ideal flow rate respectively, control means for varying the wort draw-oit rate, said control means being responsive to the one signal from saidmeasuring means and registering means that corresponds to the greater rate of flow.

2. In combination with a lauter tank having a pertorated false bottom for draining wort therethrough, irst measuring means for measuring the differential pressure of said wort at points above and below said false bottom, means for transmitting a signal from said measuring means of an. intensity proportional to said differential pressure, means for establishing a rate of ow corresponding to an ideal rate of ow at any point in a lautering cycle, selector means for selecting the differential pressure of said iirst and second measuring means that is greater, and means for causing the actual ilow rate to equal. a rate corresponding to said greater diierential pressure.

3. In combination with a lauter tank having a perforated false bottom for draining wort therethrough, a differential pressure indicator for indicating at any point in the lautering cycle the diierential pressure of said wont at points above and below said false bottom, a controller for indicating at any point in the lautering cycle a differential pressure corresponding to the rate of ow in an ideal cycle, selector means for selecting at any point in the lautering cycle the lesser of the two differential pressures indicated by said indicator and controller, and ow governing means for adjusting the actual rate of ow to correspond with said lesser of the two diierential pressures.

4. In combination with a lauter tank having a perforated false bottom for draining wort therethrough, a differential pressure indicator for indicating at any point in the lautering cycle the differential pressure of said wort at points above and below said false bottom, a controller for indicating at any point inthe lauteringfcycle afdi'tfenential pressure corresponding'to the rate ofowein-an ideal cycle, selector means for selecting at any 'point-lin the lautering cycle the lesser of the two diierentialpressures indicated by said indicatorand'controller, andilow governing means-for adjusting the actual 'rate of lo`w `to correspond with said lesser of the two diterentialpres sures, means actuated by'said differeutial'pressure--for initiating grains 'cutting in said tankwhen said differential pressure exceeds a predetermined amount.

5 In combination with a lauter tank having a pertorated false bottom for draining wort therethrough, a difrferential pressure indicator for indicating at any point in the lautering cycle the dilerential pressure of saidiwort at points above and below sa'idufalse4 bottom, a controller for indicating at any point in the lauteringfcyclera diifer; ential pressure corresponding to the 'rate of tlow in an ideal cycle, selector means for selecting atany 'pointvin the lautering cycle the lesser of the two differentialV pressuresindicated by said indicator and controller, and flow governing means for adjusting the actual rate of ow to correspond With said lesser of the two differen'tial'pres.` sures, means actuated by said ydifferential pressure `for initiating grains cutting in said tank when said differential pressure exceeds a predetermined amount, and means `actuatable by said dilterential pressure for backwashing said perforated'false bottom when said-diierential pressure exceeds another predetermined amount in excessA of said iirst mentioned predetermined amount. Y

6. In combination 'withV a lauter tank having a perforated -false bottom ifo-r draining wort therethrough by gravity, a drain conduit for conveying said 'wort from said tank and a valve in said conduit for regulating the amount of flow therethrough,`a diierential pressure transmitter connected to said tank at points above and below said false bottom for transmitting a pressure signal directly proportional to the diierential pressure between said points at each point in a lautering cycle, a time pattern controller for transmitting a pressure signal directly proportional to the diierential pressure corresponding to the rate of ow at each point in an ideal lautering cycle, selector means for selecting the lesser of two pressure signals transmitted by said transmitter and said controller and for transmitting said lesser signal, and means actuated by the signal from said selector for actuating said valve to increase or decrease the rate of low through said conduit depending on the magnitude of said last mentioned signal.

7. In combination with a `lauter tank having -a perforated false bottom for draining Wort therethrough by gravity, a drain conduit for conveying said wort from said tank and a valve in said conduit for regulating the amount of low therethrough, a differential pressure transmitter connected to said tank at points above and below said false bottom `for transmitting `a pressure signal directly proportional to the differential pressure between said points at each point in a lautering cycle, a time pattern controller for transmitting a pressure signal directly proportional to the differential pressure corresponding to the rate of ow at each point in an ideal lautering cycle, selector means for selecting the lesser of two pressure signals transmitted by said transmitter and said controller and for transmitting said lesser signal, and means f actuated by the signal from said selector for actuating forated false bottom for draining wort therethrough by gravity, a drain conduit for conveying said wort from said tank and a valve in said conduit for regulating the amount of flow therethrough, a diterential pressure trans-4 mitter connected to said tank at points above and below said false bottom for transmitting a pressure signal directly proportional to the differential pressure between said points at each point in a lautering cycle, a time pattern controller for transmitting a pressure signal directly proportional to the differential pressure corresponding to the rate of ow at each point in an ideal lautering cycle, selector means for selecting the lesser of two pressure signals transmitted by said transmitter and said controller and for transmitting said lesser signal, and means actuated by the signal from said selector for actuating said valve to increase or decrease the rate of ow through said conduit depending on the magnitude of said last mentioned signal, a first switch actuated by the pressure signal from said diierential pressure transmitter for initiating grains cutting in said tank when said differential pressure exceeds a predetermined amount, means for conducting water in a reverse direction through said conduit into said tank, and a second switch connected to said last mentioned means `for initiating such backwashing when said dilerential pressure exceeds a predetermined amount in excess of said irst mentioned predetermined amount.

9. In combination with a lauter tank having a perforated false bottom for supporting a charge of mash thereon and through which the wort drains by gravity, said tank being provided with grains cutting mechanism for agitating said mash, a drain conduit for conveying said wort from said tank and a valve in said conduit for regulating the oW through said conduit, a rst diierential pressure transmitter connected to said tank and points above and below said false bottom for transmitting a pressure signal of an intensity directly proportional to the differential pressure between said points at each point in a lautering cycle, a time pattern controller for transmitting a pressure signal directly proportional to the differential pressure corresponding to the rate of flow `at each point in an ideal lautering cycle, selector means for selecting the lesser of said two pressure signals transmitted by said first transmitter and said controller and for transmitting the lesser signal, a flow measuring element in said conduit for measuring the volume of ow therethrough, a second differential pressure transmitter connected to said element for transmitting a signal in proportion to the rate of ow through said element, a controller actuated by the signals from said selector and said second differential pressure transmitter for actuating said valve to increase or decrease the rate of flow therethrough.

10. In combination with a lauter tank having a perforated false bottom for draining wort therethrough, means for collecting said wort, and a conduit connected with said collecting means for drawing off said wort, a valve in said conduit and means for controlling the opening of said valve in response to a signal, a differential pressure measuring device connected with the wort in References Cited in the tile of this patent UNITED STATES PATENTS Metz Aug. 7, 1956 Paine Oct. 30, 1956

Claims (1)

1. IN COMBINATION WITH A LAUTER TANK HAVING A PERFORATED FALSE BOTTOM FOR DRAINING WORT THERETHROUGH, FILTER BED COMPACTION MEASURING MEANS RESPONSIVE TO THE DIFFERENTIAL PRESSURE EXISTING BETWEEN POINTS ABOVE AND BELOW SAID FALSE BOTTOM, MEANS FOR REGISTERING A PREDETERMINED IDEAL WORT FLOW RATE AT ANY TIME DURING THE LAUTERING CYCLE, SIGNAL MEANS FOR TRANSMITTING SIGNALS FROM SAID MEASURING AND REGISTERING MEANS AT MAGNITUDES PROPORTIONAL TO THE VALUES OF SAID DIFFERENTIAL PRESSURE AND SAID IDEAL FLOW RATE RESPECTIVELY, CONTROL MEANS BEING RESPONSIVE TO THE DRAW-OFF RATE, SAID CONTROL MEANS BEING RESPONSIVE TO THE ONE SIGNAL FROM SAID MEASURING MEANS AND REGISTERING MEANS THAT CORRESPONDS TO THE GREATER RATE OF FLOW.

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